UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education

UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education * 5 0 4 6 1 4 8 1 7 * 0680/41 ENVIRONMENTAL MANAGEMENT Alternative to Coursework May/June 13 1 hour 30 minutes Candidates answer on the Question Paper. Additional Materials: Ruler READ THESE INSTRUCTIONS FIRST Write your Centre number, candidate number and name on all the work you hand in. Write in dark blue or black pen. You may use a soft pencil for any diagrams, graphs or rough working. Do not use staples, paper clips, highlighters, glue or correction fluid. Electronic calculators may be used. DO NOT WRITE IN ANY BARCODES. Answer all questions. Study the appropriate Source materials before you start to write your answers. Credit will be given for appropriate selection and use of data in your answers and for relevant interpretation of these data. Suggestions for data sources are given in some questions. You may use the source data to draw diagrams and graphs or to do calculations to illustrate your answers. At the end of the examination, fasten all your work securely together. The number of marks is given in brackets [ ] at the end of each question or part question. 1 2 Total This document consists of printed pages. DC (CW/CGW) 6561/4 [Turn over

2 World map Tropic of Cancer Equator Tropic of Capricorn Argentina Map of Argentina N River Parana farming region near Santa Fe farming region in La Pampa Buenos Aires

3 Area of Argentina: 2 800 000 sq km Population: 43 million Children per woman: 2.3 Life expectancy: 77 years Currency: Argentine pesos (4.0 =1US$) Language: Spanish Climate: temperate, becomes drier towards the northwest and south east Terrain: vast grassy plains of the Pampas in the northern half, dry plateau of Patagonia in the south, Andes Mountains in the west Main exports: soybeans, maize, wheat, beef, manufactured goods and fuels (mainly gas). Argentina is a country rich in natural resources, with a long history of exporting the agricultural products of the Pampas and a wide industrial base. Approximately 14 million people live in the capital city, Buenos Aires. Argentina has suffered from several economic crises in the last hundred years but the economy has performed well since the world recession of 0. The rate of inflation remains high. [Turn over

4 Answer all the questions. 1 (a) What do you understand by the term wide industrial base?... [1] (b) The World demand for soybeans has increased in recent years because they can be used both as an animal feed and as a fuel. The graph shows the world price of soybeans between October 0 and July 11. Graph of world price of soybeans 550 500 450 soybean price / US$ per tonne 400 350 Ju l 11 1 01 r2 Ap Ja n 11 10 O ct Ju l 10 10 Ap r 10 Ja n O ct 0 300 month and year Describe what is shown by the graph.... [2]

5 (c) Most of the soybean grown in Argentina is GM (genetically modified). The seeds of soybeans have been genetically modified so a weedkiller round up can be sprayed without damaging the soybean crop. The weedkiller allows large areas of land to be planted with one crop (monoculture). (i) Explain one advantage to the farmer of using GM soybeans.... [1] (ii) Suggest two possible problems of having large areas of monoculture.... [2] (iii) Some people think growing GM crops is a risk to the environment. Why do they think this?... [2] [Turn over

6 (d) The photograph shows part of a soybean plant. flower leaf pods Soybean plants grow rapidly. A scientist planted soybean seeds in two separate containers using soil that had never been used to grow soybeans. One container had urea added, a fertiliser releasing nitrogen. He took sample plants from each container every 15 days. He found the dry mass of each sample. The results are shown below. Dry mass of soybean growth / g m 2 days from planting soil without added urea soil with added urea 15 1.0 1.0 30 2.0 2.0 45 4.2 4.4 60 10.8 10.6 75 12.5 12.4 (i) State two factors that the scientist needed to keep the same for both containers.... [2]

7 (ii) Plot a graph of the data in the table on page 6. [4] (iii) Did the fertiliser make a difference to the growth of soybeans in the two soils? Using information from the graph and table explain your answer.... [3] [Turn over

8 (e) The scientist then went to three fields where soybeans were going to be planted. He measured the concentration in the soil of a different nutrient, phosphate. He repeated the measurements after the first harvest in each field. The results are shown below. (i) field phosphate concentration before planting / ppm phosphate concentration after first harvest / ppm 1 1.0 0.8 2 0. 0.7 3 0. 0.7 Suggest an explanation for what happened to the phosphate concentration during the growing season.... [1]

TURN OVER FOR QUESTION 1(e)(ii) [Turn over

10 (ii) Farmers often grow soybeans year after year due to high demand. To maintain high crop yields fertilisers are added after the first year of planting soybeans. Another scientist was worried that repeated additions of fertiliser could cause environmental damage to streams and rivers. The scientist looked at a map of areas that had been planted with soybeans for several years and the drainage system as shown in the diagram below. A B C D Ri ve r Pa ra n a 0 Key streams A, B, C and D direction of flow field 1 km

11 Look at the map. She studied the map to look at the drainage system. She tried to predict which stream, A, B, C or D, would have the highest and lowest phosphate concentration where soybeans had been planted and fields fertilised. Suggest what she would have predicted. stream with highest phosphate concentration... stream with lowest phosphate concentration... (iii) [1] Describe the changes to life in the streams that can be caused by high phosphate concentrations.... [5] (f) A farmer grew GM soybeans in the same field year after year, adding enough fertiliser to replace the nutrients used by the crop each year. The table shows part of the farm records for this field over a period of 6 years. (i) year crop yield / tonnes per hectare 1 soybean 3.8 2 soybean 3.5 3 soybean 3.3 4 soybean 3.3 5 soybean 2.8 6 soybean 2.5 Calculate drop in yield between year one and year six as a percentage of the yield in year one. Space for working.... [1] [Turn over

12 (ii) Suggest and explain one reason why crop yields fall when a crop is grown year after year in the same field even though the field receives enough fertiliser.... [2] (iii) Explain how farmers can avoid a drop in yield such as that shown in the table on page 11.... [1]

13 (g) The diagram shows some information which is relevant to GM soybean growing in Argentina. good weed control no ploughing required crop wastes left on ground some strains of sorghum are developing round up resistance information relevant to growing GM soybeans in Argentina chemical inputs reduced overall fertiliser still needed GM maize seed cannot be saved payments needed for license to use GM seeds Round up is toxic to nitrogen fixing soil bacteria Growing GM soybean has been profitable for ten years. Would you expect the farming of soybeans to increase or decrease over the next 10 years? Explain the reasons for your view.... [4] [Total: 32] [Turn over

14 QUESTION 2 BEGINS ON PAGE 15

15 2 Some soybeans are processed into biodiesel. All diesel fuel used in vehicles in Argentina has to have 5% biodiesel and 5% diesel refined from crude oil. The vehicle engines do not need to be modified. The carbon emissions from ordinary diesel and biodiesel are similar. (a) Explain the advantages of using biodiesel.... [2] (b) Buenos Aires has at least two million vehicles moving in the city at peak travel times. A student noticed that some cars were releasing black smoke from their exhaust systems. The student contacted the city authorities and found that 40% of cars are over ten years old. The student decided to carry out a survey of vehicles causing air pollution. The student used the following method. 1. He selected five observation points E, F, G, H and J, in different residential (housing areas) districts of the city 2. He observed all traffic from each point for 30 minutes 3. He recorded the number of cars releasing black smoke. 4. All traffic observations were done at the same time of day (.00.30am) from Monday to Friday. The results are shown below Residential district (i) Observation point E F G H J Number of vehicles releasing black smoke 12 18 52 25 23 Calculate the average number of vehicles releasing black smoke. Space for working.... [2] (ii) Suggest reasons for the variation between residential districts.... [2] [Turn over

16 (iii) Suggest two ways the survey method could have been improved. 1... 2...... [2] (c) The student decided to measure the amount of soot (carbon) particles released by vehicles in the same five districts E, F, G, H and J. The student used the following method. 1. Prepare 15 clear plastic boxes by covering the bottom with sticky jelly. 2. Immediately cover the box with a tightly fitting lid. 3. Place three boxes at each observation point, two metres above the ground. 4. Remove the lids for 24 hours. 5. Collect and seal the boxes. 6. Count the soot particles in each box. The results for October are shown below. observation point J the boxes with the soot particles in are shown below the table. number of soot particles at each observation point in October sample E F G H 1 11 6 7 14 J... 2 8 10 11... 3 8 8 5 14... average number of soot particles 8 7 13... Boxes for observation point J sample 1 sample 2 sample 3

17 (i) Complete the table for observation point J. Space for working. Put your answer in the space in the table on page 16 [1] (ii) Suggest one piece of information the student should have included in their method so it could be repeated reliably.... [1] (iii) Which district, E, F, G, H or J, does this method show is likely to be most polluted?... [1] (iv) The survey described in question 2(b) (page 15) found that district G was likely to be the most polluted. Suggest one possible explanation for the different findings of the two methods.... [2] (d) The survey carried out in October was repeated six months later in April in the same five districts E, F, G, H and J. The results for April are shown below. Number of soot particles at each observation point in April average number of particles (i) E F G H J 11 8 15 The student compared these results with the results from the October survey. Suggest a conclusion.... [1] [Turn over

18 (ii) The student found a secondary source of average climatic information for Buenos Aires. average monthly temperature and wind speeds for Buenos Aires J F M A M J J A S O N D average air temperature / C 26 25 23 16 13 12 13 15 1 22 25 average wind speed / knots 8 8 8 11 10 10 percentage of days with winds greater than 11 15 knots 35 27 28 23 24 26 28 40 3 36 31 Describe how the data in the table helps to explain your conclusion in part (i).... [3] (iii) A newspaper said that air pollution in Buenos Aires was very high in July. Suggest a possible reason for this.... [1]

1 (e) The same newspaper did a survey of farmers living in an area of La Pampa and of people living in Buenos Aires. The question asked was; Are you in favour of the use of biodiesel in vehicles in Argentina? percentage of people saying: yes no not sure People living in Buenos Aires 65 15 Farmers in La Pampa 0 5 5 (i) Suggest reasons for the differences between the views of city people and farmers.... [2] (ii) 1. The student wanted to find out more about people s views and their knowledge of alternative renewable energy sources. The student started writing a questionnaire. What age are you?... 2. Are you male or female? Male... 3. Female... Do you own a car? Yes... No... 4. 5. 6. Complete the questionnaire with three more questions designed to find out more people s views and knowledge of other renewable energy sources. [4] [Turn over

(f) Investing in renewable sources of energy is often very expensive. What arguments would you use to persuade people living in Argentina that paying higher taxes to pay for investment in renewable sources is a good idea?........................[4] [Total: 28] Permission to reproduce items where third-party owned material protected by copyright is included has been sought and cleared where possible. Every reasonable effort has been made by the publisher (UCLES) to trace copyright holders, but if any items requiring clearance have unwittingly been included, the publisher will be pleased to make amends at the earliest possible opportunity. University of Cambridge International Examinations is part of the Cambridge Assessment Group. Cambridge Assessment is the brand name of University of Cambridge Local Examinations Syndicate (UCLES), which is itself a department of the University of Cambridge.